Universal joint comprising a pair of crown gear elements confined within a slotted casing

ABSTRACT

A universal joint comprises a driving gear and a driven gear each provided with a respective crown gear cluster, and a slotted casing confining the driving gear and driven gear in meshing engagement. The casing comprises a slot through which the driven gear projects and along which the driven gear may be moved angularly from a first position in which the driving gear and driven gear are in-line, and a second position in which the driving gear and driven gear are substantially at right angles to one another. The universal joint further comprises a compression spring surrounding a drive shaft of the driving gear within the casing, and acting between a first bearing surface of the casing and the base of the crown gear cluster of the driving gear. The casing further comprises second bearing surfaces contacting the base of the crown gear of the driven gear, such that movement of the driven gear from its first position to its second position produces a camming action whereby the driving gear is forced downwardly relative to the casing against the action of the compression spring, and whereby the compression spring is in a relatively more relaxed state in the first position of the driven gear, and a relatively more compressed state in the second position of the driven gear.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to universal joints, and more particularlyto a rotary coupling capable of transmitting even very large drivingforces from a driving shaft to a driven shaft, at any angle between thetwo shafts from 0° up to and including 90°.

2. Description of the Prior Art

Rotary couplings of the crown gear type are well known, in which each ofa driving and driven shaft are provided with a crown of gear teeth. Whenthe shafts are aligned, the crowns on the respective shafts intermeshaxially; when the shafts are angularly offset, at least one of the gearteeth of one crown is always engaged between a pair of teeth on theother crown. In this manner, power may be transmitted from the drivingshaft to the driven shaft from a position of alignment of the two shaftsup to a maximum angular displacement of the two shafts. Couplings ofthis type are particularly prevalent in dental tools.

An example of a prior art rotary coupling as described above is found inU.S. Pat. No. 1,241,118, to Hoskins. This Hoskins patent, like much ofthe prior art, mounts the gears in a hinged casing which serves tomaintain the teeth of each gear in correct position relative to oneanother. Other examples of hinged casings used to correctly position thegear clusters of axially intermeshing crown gear couplings are providedin U.S. Pat. Nos. 636,476; 2,316,243, and Reissue 22,555.

The closest known prior art to the present invention is U.S. Pat. No.4,789,377, in the name of Nathan D. Hoskins, which solves a number ofthe problems associated with the prior art described above, by theprovision of a slotted casing containing a pair of crown gear clustershaving semi-spherical gear teeth and semi-spherical sockets betweenadjacent gear teeth. As the present invention represents an improvementon, as well as a departure from, the universal joint described in U.S.Pat. No. 4,789,377, the entirety of that patent is hereby expresslyincorporated by reference.

It has been found by the present inventors that the universal joint ofU.S. Pat. No. 4,789,377 is nevertheless attended with severaldisadvantages that restrict its commercial feasibility. In particular,it has been found that the semi-spherical shape of the gear teeth on thecrown gear clusters is very difficult to machine, which causes themanufacture of such a device to be excessively complicated andexpensive.

Moreover, the slotted casing of this prior art universal joint isprovided with differentiated bearing surfaces 14, 15 for the drivengear, which bearing surfaces 14, 15 differ substantially in height alongthe longitudinal dimension of the casing. Still further, the devicedescribed in this patent requires the use of an undulate spring 23captive on the shaft of the angularly movable driven gear, which is thusinterposed between the base of the crown gear cluster and thedifferentiated bearing surfaces 14, 15. In manufacturing devicesaccording to the teachings of U.S. Pat. No. 4,789,377, it has been foundthat the presence of spring 23, although necessary to urge the gearclusters of the drive and driven shafts into meshing engagement,nevertheless detracts from the smooth operation of the device,particularly when the driven gear 1 is moved through its 90° range oftravel and the spring 23 is thereby caused to slide across thedifferentiated bearing surfaces 14, 15.

An additional disadvantage of the universal joint described in U.S. Pat.No. 4,789,377 is that the structure of the slotted casing has proven tobe undesirably large and insufficiently sturdy for especially heavy dutyapplications.

SUMMARY AND OBJECTS OF THE INVENTION

It is accordingly a principal object of the present invention to providea universal joint that overcomes the shortcomings of the prior art asdescribed above, by virtue of a structure that allows smoother and morereliable operation of the joint over its 90° operating range.

It is another object of the invention to provide a universal joint inwhich the gear teeth are configured to mesh and transmit smoothly, butcan nevertheless be more readily machined than semi-spherical gearteeth.

It is a further object of the invention to provide a universal joint inwhich the structure of the slotted casing is improved both as tocompactness and strength.

The above and other objects of the present invention are achieved by auniversal joint having a driving gear and a driven gear confined withina slotted casing that permits the driven gear to move angularly relativeto the drive gear over a 90° range. According to the invention, the gearteeth of each crown gear cluster are of rounded trapezoidal shape.Preferably one of the crown gears comprises a bullet-shaped orball-shaped insert, which serves to limit the extent of axialinterpenetration of the teeth of the other crown gear cluster.

According to an important feature of the invention, a compression springis provided on the shaft of the drive gear, and acts between its bearingseat in the casing and the base of its crown gear cluster. The bearingsurfaces in the top of the slotted casing are specially configured, sothat angular movement of the driven gear from its in-line position tothe 90° position produces a camming action whereby the drive gear isdisplaced axially downwardly relative to the housing, against the actionof the compression spring.

According to another important feature of the invention, the casing isformed of two interfitting pieces each of which extends substantiallythe entire length of the casing, and each of which define part of thebearing surfaces for both the drive shaft and the driven shaft.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects and advantages of the invention will beapparent from the following detailed description of preferredembodiments thereof, taken with reference to the accompanying drawings,in which:

FIG. 1 is an axial section through the slotted casing according to theinvention, showing the drive shaft and driven shaft in the in-lineorientation;

FIG. 2 is a view similar to FIG. 1, showing the drive shaft and drivenshaft in their 90° orientation relative to one another;

FIG. 3 is a top plan view of the drive shaft, showing the shapes of thegear teeth;

FIG. 4 is an exploded side view of one embodiment of the slotted casingaccording to the invention;

FIG. 5 is a bottom plan view of the right-side casing half of FIG. 4;

FIG. 6 is a top-plan view of the element of FIG. 5;

FIG. 7 is a left side view of the element of FIGS. 5 and 6;

FIG. 8 is a bottom plan view of the left-side casing half of FIG. 4; and

FIG. 9 is a right side view of the element of FIG. 8.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

Referring now to FIG. 1, the universal joint according to the presentinvention comprises a drive shaft 2 and an angularly movable drivenshaft 1. Drive shaft 2 and driven shaft 1 are maintained in meshingengagement by a slotted casing 3, which is comprised of a pair ofinterfitted pieces 6, 7. The assembled casing 3 comprises an arcuateslot 11, which extends from the top of casing 3 to partway down one ofits sides. This slot permits the driven shaft 1 to be moved angularlyfrom the in-line position shown in FIG. 1, to the 90° position shown inFIG. 2, as well as to assume any intermediate angular position. It willbe appreciated that the section plane in FIGS. 1 and 2 bisects slot 11,and that casing 3, as well as its component pieces 6 and 7, aresymmetrical with respect to a plane bisecting slot 11.

As it is contemplated that a significant application of the universaljoint according to the present invention will be as an adapter forsocket wrenches and the like, the drive shaft 2 is provided at its lowerend with a connector 9 having a square-shaped socket formed therein, anddriven shaft 1 is provided with the corresponding male socket connector,namely a square-shaped projection 8 provided with a spring-urged ball10.

As also shown in FIG. 1, the base of the crown gear cluster on thedriven gear 1 is rounded so as to have a generally bell-shaped contour,which is complementary with bearing surface 13 that contacts driven gear1 in the in-line position, and also generally complementary with bearingsurface 14 that contacts driven gear 1 in the 90° position shown in FIG.2. Thus, in contrast to the universal joint described in U.S. Pat. No.4,789,377, the crown gear cluster of the driven gear according to theinvention directly contacts the associated bearing surfaces in the upperpart of the casing.

On the other hand, the base of the crown gear cluster on drive shaft 2is in this embodiment a flat annular region that provides a contact areafor compression spring 15, which extends between the base of the crowngear cluster on drive shaft 2 and a complementary-shaped seat 16 definedby the assembled pieces 6 and 7 of casing 3. In the in-line position ofgears 1, 2 as shown in FIG. 1, compression spring 15 is in itsrelatively relaxed state, but is nevertheless still slightly incompression.

FIG. 2 shows the universal joint of the present invention after theangularly movable driven shaft 1 has been moved from the in-lineposition to the 90° position. As illustrated by FIGS. 1 and 2, animportant feature of the present invention is that the bearing surface14, formed on both sides of slot 11 and interrupted by that slot,performs the dual function of not only providing a bearing surface fordriven gear 1 throughout its range of angular movement, but alsoproducing a camming action on the driven gear 1, whereby, as the drivengear 1 is moved from its in-line position to its 90° position, thedriven gear 1 forces the drive gear 2 downwardly against the action ofspring 15. Thus, FIG. 2 shows spring 15 in its relatively morecompressed state. By this structure, therefore, the height differentialbetween bearing surfaces 13, 14 along the longitudinal dimension of thecasing 3, may be entirely eliminated, and in any event is lesspronounced than in the case of bearing surfaces 14, 15 of the universaljoint described in U.S. Pat. No. 4,789,377.

In further contrast to the structure described in U.S. Pat. No.4,789,377, the bearing surfaces 13, 14 according to the invention have asmooth transition therebetween, as shown in FIG. 2, and therefore are"non-differentiated". By contrast, in the device of U.S. Pat. No.4,789,377, the differentiated bearing surfaces 14, 15 had a sharpdiscontinuity therebetween, which resulted in an undesirable "hop" whenthe driven shaft 1 was moved from the in-line to 90° position, which wasfurther exacerbated by the presence of spring 23 on the driven gear.

Moreover, because the bell-shaped lower surface of driven gear 1directly contacts bearing surfaces 13, 14, without the need for a springsuch as that shown at 23 in U.S. Pat. No. 4,789,377, the operation ofthe universal joint according to the present invention is madeconsiderably smoother.

Note that the spring 15 used in this embodiment of the invention doesnot impede the smooth transmission of power from drive shaft 2 to drivenshaft 1, as did spring 23 in U.S. Pat. No. 4,789,377, because driveshaft 2 only rotates about its axis, and does not move over an angularrange. Moreover, by virtue of this construction, the surfaces betweenwhich spring 15 acts, namely bearing seat 16 of casing 3 and the lowersurface of the crown gear cluster on drive shaft 2, can both be madeflat, thereby further improving the smooth rotation of either driveshaft 2 relative to spring 15, or, alternatively, drive shaft 2conjointly with spring 15, relative to bearing seat 16.

It is contemplated that a pair of flat washers may be provided asseparate bearing surfaces for the opposite ends of spring 15. That is, afirst washer would be disposed surrounding the shaft of drive gear 2,between the top end of the spring and the bottom of the base of thecrown gear cluster on drive shaft 2, whereas a second flat washer wouldbe provided surrounding the shaft of drive shaft 2, between the bottomend of spring 15 and the bearing seat 16 of casing 3. It is believedthat the provision of such flat washers may further improve the smoothoperation of the universal joint in use.

FIG. 2 also shows the shape of the teeth 4 in each crown gear cluster,as seen from the side. In particular, and as discussed above, the teethaccording to the invention are generally trapezoidal in shape. That isto say, a radial cross section taken through either of the crown gearclusters of the drive shaft 2 and driven shaft 1 would show a circulararray of generally trapezoidal elements, in which all four verticaledges have been rounded to promote smooth intermeshing of the crown gearclusters, regardless of their angular orientation relative to oneanother. Additionally, the four horizontal edges defining the tops ofthe gear teeth 4 are likewise rounded, for the same purpose. Betweeneach pair of adjacent gear teeth 4 is a generally trapezoidal-shapedrecess 5, the edges of which have likewise been rounded, which recesses5 are complementary in shape to the teeth 4 of the opposing crown gearcluster.

The teeth 4' and recesses 5' of the driven gear 1 are similarly shaped,but teeth 4' are taller than teeth 4 of drive gear 2, and,correspondingly, recesses 5' are deeper than recesses 5. This allowsdeeper intermeshing of the teeth as driven gear 1 travels from thein-line to the 90° position, consistent with the tighter more continuousarc in which gear 1 is guided by the bearing surfaces 13, 14.

As can also be seen in FIG. 2, the driven gear 1 comprises abullet-shaped insert mounted centrally of the circular array of gearteeth 4 and recesses 5. The purpose of this insert is the same as isdescribed in connection with bearing ball 6 in the universal joint ofU.S. Pat. No. 4,789,377. In this case, however, it has been found thatthe semi-spherical depressions 13 of the prior art bearing ball 6 may beomitted, and, moreover, that the insert 12 according to the inventionmay be bullet-shaped, rather than ball-shaped. That is, the base ofinsert 12, not visible in FIG. 2, may have a cylindrical shape with aflat base, and be welded into a correspondingly shaped cylindricalsocket in the center of the crown gear cluster of driven gear 1.Alternatively, insert 12 may be formed integrally with driven gear 1 inthe first instance.

FIG. 3 shows the drive shaft 2 from above, and therefore depicts thecircular array of generally trapezoidal-shaped gear teeth 4, alternatingwith complementary-shaped recesses 5. Additionally, FIG. 3 shows acentral part-spherical or ellipsoidal recess 17, which receives therounded projecting end of insert 12, when the drive shaft 2 and drivenshaft 1 are in their in-line orientation.

FIG. 4 is an exploded view showing the manner in which the pieces 6 and7 of the slotted casing 3 fit together. In particular, the right-sidehalf 6 of casing 3 comprises a pair of projecting pillars which togetherdefine the side portion of slot 11, as well as a pair of shank portions20, 21 which together define a longitudinally extending recess thatmakes up part of the bore receiving the shaft of drive gear 2. Theleft-side piece 7 includes a lower tongue portion 22 that fits withinthe recess defined by shank portions 20, 21 and completes the bore inwhich the shaft of drive gear 2 rotates, as well as a pair of lateralportions 23, 24 that overlie shank portions 20, 21 respectively and abutagainst pillars 18 and 19, respectively. Lastly, the top portion ofpiece 7 comprises a pair of tongue elements 25, 26, which togetherdefine the top portion of slot 11, and which overlie the tops of pillars18 and 19.

When the drive shaft 2, driven shaft 1 and spring 15 are assembledwithin casing pieces 6 and 7, the pieces 6 and 7 are then interfitted toclose the slotted casing 3 and form the complete universal jointassembly. When the universal joint is in its assembled condition, a pairof preferably smooth bores 27 in piece 6 are aligned with acorresponding pair of threaded bores 28 in piece 7 whereafter a pair ofscrews 30 can be fitted into the part-cylindrical recesses 29 leading tobores 27, and the pieces 6 and 7 can be rigidly interconnected byscrewing screws 30 into threaded bores 28.

The shapes of pieces 6 and 7 in this embodiment of the invention will bebetter appreciated upon examining the several views thereof shown inFIGS. 5-9, wherein like reference numerals are used to designate thesame elements.

For example, it is apparent from a consideration of FIGS. 6-9, how thetongue portion 22 of the left-side piece 7 5 fits within the recessdefined by shank portions 20, 21 of the right-side piece 6, thereby toclose the lower part of the casing 3 and to define the bore in which theshaft of drive gear 2 is confined. Likewise, FIGS. 5 and 7 together showthe shape of arcuate slot 11 that is formed when the casing 3 isassembled, from which figures it will be appreciated that the width ofslot 11 is slightly greater than the diameter of the drive shaft ofdriven gear 1, but of course less than the width of the crown gearcluster of driven gear 1.

Although the invention has been described in detail above in connectionwith various preferred embodiments thereof, it will be appreciated bythose skilled in the art that these embodiments have been providedsolely for purposes of illustration, and are in no way to be consideredas limiting the invention. Instead, various modifications andsubstitutions of equivalent techniques will be readily apparent to thoseskilled in the art upon reading this specification, and suchmodifications and substitutions are to be considered as falling withinthe true scope and spirit of the following claims.

What is claimed is:
 1. In a universal joint comprising a driving gearand a driven gear each provided with a respective crown gear cluster,and a slotted casing confining said driving gear and said driven gear inmeshing engagement, said casing comprising a slot through which saiddriven gear projects and along which said driven gear is angularlymovable from a first position in which said driving gear and driven gearare in-line, and a second position in which said driving gear and drivengear are substantially at right angles to one another, the improvementin combination therewith comprising:a compression spring surrounding adrive shaft of said driving gear within said casing, and acting betweena first bearing surface of said casing and a base of the crown gearcluster of said driving gear, said casing further comprising secondbearing surfaces contacting the base of the crown gear of said drivengear, said second bearing surfaces being shaped such that movement ofsaid driven gear from said first position to said second positionproduces a camming action whereby said driving gear is forced downwardlyrelative to said casing against the action of said compression spring,and whereby said compression spring is in a relatively more relaxedstate in said first position of said driven gear, and in a relativelymore compressed state in said second position of said driven gear, andwherein said second bearing surfaces include an in-line bearing surfaceand a right-angle bearing surface, both of said in-line and right-anglebearing surfaces being interrupted by said slot, said in-line andright-angle bearing surfaces being interconnected by an intermediatebearing surface forming a smooth and continuous transition between saidright-angle and in-line bearing surfaces, and producing said cammingaction, said compression spring having multiple coils and imparting tosaid drive gear a range of axial travel such that said driven gear ismaintained against said second bearing surfaces throughout its range ofangular movement.
 2. The universal joint according to claim 1, whereineach of said crown gear clusters comprises a circular array of generallytrapezoidal-shaped teeth having rounded edges.
 3. The universal jointaccording to claim 1, wherein said slotted casing comprises twointerfitted pieces, each of said two pieces extending substantially theentire longitudinal extent of said casing, said second bearing surfacesbeing formed conjointly by said first and second pieces.
 4. Theuniversal joint according to claim 3, wherein said first piece comprisesa pair of projecting pillar elements defining a lateral portion of saidslot, as well as a pair of lateral shank portions defining a portion ofa bore receiving the shaft of said driving gear.
 5. The universal jointaccording to claim 4, wherein said second piece of said casing comprisesa tongue portion received between said lateral shank portions of saidfirst piece, and completing the bore in which is received the shaft ofsaid drive gear, said second piece further comprising a pair ofspaced-apart tongue elements defining a top portion of said slot.
 6. Theuniversal joint according to claim 3, wherein each of said first andsecond pieces of said casing comprise a pair of bores adapted to receivea pair of screws, said pair of bores of said first piece being alignedwith said pair of bores of said second piece, said first and secondcasing pieces being rigidly interconnected by screws passing throughsaid pair of bores on both of said first and second casing pieces.